The aim of this study was to elucidate the relationships between the nasolabial fold and superficial fascia on histology and P45 sheet plastination.Two centimeter width specimen of the nasolabial area were harvested from the skin to periosteum. Then, 10-μm sections were made, stained with Masson trichrome, and observed under a light microscope. https://www.selleckchem.com/products/molidustat-(bay85-3934).html Three head and neck specimens were sliced in horizontal sections (46 slices) using P45 sheet plastination (polyester resin corrosion-resistant method designed to preserve biological sectional specimens in situ). Through slicing, bleaching, dehydration, casting, forced impregnation, curing, cutting, and sanding the molds, P45 plastination provided good light transmission, allowing the internal structures within the sheet to be revealed clearly in their intact form.The observations on histology and P45 sheet plastination correlated well. The nasolabial fold consisted of the superficial fatty layer of superficial fascia (SFS). At the beginning of the alar groove level, e orbicularis oris. The superficial fascia became scanty near the nasolabial groove, and the SFS comprised the nasolabial fold.The results of the present study may be helpful for applying subcutaneous dissection or sub-superficial muscular aponeurotic system dissection in rejuvenation of the nasolabial area.The aims of this study were to obtain cephalometric data of orbito-zygomatic skeleton using CT axial images and to determine the presence of sexual dimorphism, normal range of facial asymmetry, and the age-related changes.This study used data from 315 CT scan series of skeletally normal subjects (159 males and 156 females) between the ages of 18 to 90. Two different levels of axial sections were used. In total, 11 measurements were performed and 5 of them were bilateral.The mean values and standard deviations were calculated. Gender and age related changes and asymmetry degree were investigated.Mean values of measurements except left medial orbital wall length, right and left medial orbital wall protrusion, right and left lateral orbital wall angle were significantly larger in males for all age groups. Majority of the measurements was formed by the individuals with larger right side. Similar tendencies were observed for craniofacial asymmetry in both sexes and in different age groups. There were no significne. The authors hope the data can be helpful in diagnosis and surgical treatment of craniofacial diseases, estimating the prognosis and preparation of the facial prosthesis.To explore the feasibility of an original surgical technique for head and neck oncologic reconstruction utilizing a pedicled osteocutaneous supraclavicular artery island flap (SCAIF) in a cadaver model.
Cadaver dissection, Review of literature.
Two fresh frozen cadavers, 1 male and 1 female, were used for the dissection. Prior to dissection, measurements were taken on length of clavicle and distance between clavicular articulations and mandibular landmarks with the head in a neutral position. The SCAIF flap was raised in a subfascial plane and a 4.0?cm partial thickness clavicular bone graft was harvested attached to the flap. The pedicle was identified and the length of the supraclavicular artery was noted. The skin paddle was tunneled into the floor of mouth and the bone was placed into a pre-cut 4.0?cm mandibular body defect and fixated with a 1.7?mm Stryker mandibular reconstruction plate.
The male cadaver clavicle measured 16.4?cm in length. The distance from the sternoclavicular joint (SC) to th this cadaveric model, a novel approach utilizing an osteocutaneous SCAIF was shown as a feasible reconstruction option for oromandibular defects in selected patients. This technique is limited by the anatomical relationship between the neck and vascular pedicle length. Viability could be determined by pre-operative measurements, where the clavicular length should be significantly greater than the distance from SC to MA.Trigeminal neuralgia is a painful condition, usually treated through surgical procedures focusing on the foramen ovale (FO). A detailed localization of FO relative to reference landmarks is therefore crucial to avoid possible complications.The present study aims at assessing the position of FO according to the surrounding bone structures 100 CT-scans of patients, equally divided between sexes, aged between 18 and 86 years were examined. From each subject, the 3D models of FO and the maxillary bones, the zygomatic bones and the zygomatic process of the temporal bones were segmented through ITK-SNAP software. The distance between the center of the FO and subnasale, zygion, and the upper edge of the zygomatic bone at the origin of the frontal process were measured on 3D models. On CT-scans three cranial measurements were taken as well (distance between anterior and posterior nasal spine, upper facial height and bizygomatic breadth).Statistically significant differences in the three distances according to side ults provide innovative data for the localization of FO and will be useful for the management of transforaminal procedures in case of trigeminal neuralgia.In this paper, the authors attempted to determine the extent of the superficial fascia of the cheek using P45 sheet plastination.Three head and neck specimens were sliced in horizontal (46 slices), coronal (30 slices), and sagittal (29 slices) sections using P45 sheet plastination (special polyester resin corrosion-resistant method designed to preserve biological sectional specimens in situ). Through slicing, bleaching, dehydration, casting, forced impregnation, curing, cutting, and sanding the molds, P45 plastination sheets provided good light transmission, allowing the internal structures within the sheet to reveal clearly in their intact form.P45 sheet plastination revealed that the superficial fascia in the cheek area is generally composed of 3 layers a superficial fatty layer, a membranous layer, and a deep fatty layer. Anteriorly, the membranous layer of superficial fascia (MSF) extended to the posterior border of the zygomaticus major muscle, enveloping this muscle, and then to the lateral border of the orbicularis oculi muscle.